Overview

If you're looking for general documentation on the Service Manager, what a “service” is, and how to build one, see the Service Manager & Services documentation instead of this document.

The top-level //services directory contains the sources, public Mojo interface definitions, and public client libraries for a number of essential services, designated as Chrome Foundation Services. If you think of Chrome as a “portable OS,” Chrome Foundation Services can be thought of as the core system services of that OS.

generally focuses on a subset of functionality or features which are thematically or functionally related in a way that makes sense given the name of the service

could logically run in an isolated process for security or performance isolation, depending on the constraints of the host OS

Note that there are other parts of the tree which aggregate slightly-less-than-foundational service definitions, such as services specific to the Chrome browser, defined in //chrome/services. The motivations, advice, and standards discussed in this document apply to all service definitions in the Chromium tree.

The //services/service_manager directory contains the implementation and public APIs of the Service Manager itself, including an embedder API with which software applications (such as Chrome) can embed the Service Manager to manage their own multiprocess service architecture.

One of the main motivations for expressing Chromium as a collection of services is long-term maintainability and code health. Because service API boundaries are strictly limited to Mojo interfaces, state owned and managed by each service is strongly isolated from other components in the system.

Another key motivation is general modularity and reusability: in the past there have been a number of missed opportunities for potential new features or Chromium-based products due to the browser's generally monolothic and inflexible system design. With the Service Manager & services providing scaffolding for system components, it becomes progressively easier to build out newer use cases with e.g. a smaller resource footprint, or a different process model, or even a more granular binary distribution.

Service Standards

As outlined above, individual services are intended for graceful reusability across a broad variety of use cases. To enable this goal, we have rigorous standards on services' structure and public API design. Before doing significant work in //services (or other places where services are defined), please internalize these standards. All Chromium developers are responsible for upholding them!

Public Service APIs

In creating and maintaining a service's public API, please respect the following principles:

The purpose of a service should be readily apparent.

The supported client use cases of the service should be easy for a new consumer to understand.

The service should use idioms and design patterns consistent with other services.

From the service‘s public API documentation and tests, it should be feasible to develop a new implementation of the service which satisfies existing clients and doesn’t require mimicking internal implementation details of the existing service.

Perhaps most important of all, a service's public API should be designed with multiple hypothetical clients in mind, not focused on supporting only a single narrow use known at development time. Always be thinking about the future!

If you‘re working on a new service and have concerns or doubts about API design, please post to services-dev@chromium.org and ask for help. The list is generally quite responsive, and it’s loaded with people who have done a lot of work on services.

Service API Design Tips

Using Interface Factories to Establish Context

One common pitfall when designing service APIs is to write something like:

interface GoatTeleporter{// Sets the client interface pipe for this teleporter. Must be called before// other interface methods.SetClient(GoatTeleporterClient client);TeleportGoat(string name);};
interface GoatTeleporterClient{TeleporterReady();};

The problem with this approach is that a client may easily fail to call SetClient before calling TeleportGoat. When such ordering requirements are necessary, the service can benefit clients by designing an API that is harder to fail at. For example:

Instead of exposing GoatTeleporter directly to other services, the service can expose GoatTeleporterFactory instead. Now it's impossible for a client to acquire a functioning GoatTeleporter pipe without also providing a corresponding client pipe to complement it.

Service & Interface Naming

Just some basic tips for service and interface naming:

Strive to give your service a name that makes it immediately obvious what the service is for (e.g., "network", "metrics") rather than a meaningless codename like "cromulator_3000".

Avoid the usage of "Service" in interface names. While the term “service” is overloaded in Chromium and certainly has plenty of valid interpretations, in the context of Service Manager services it has a very specific meaning and should not be overloaded further if possible. An interface which exposes a control API for a goat teleporter can just be called GoatTeleporter, not GoatTeleporterService.

Use the names FooClient and FooObserver consistently in interfaces. If there is an expected 1:1 correspondence between a Foo and its client interface counterpart, that counterpart should most likely be called FooClient. If there is expected to be 1-to-many correspondence between a Foo and its counterpart clients, the client interface may be better named FooObserver.

As a general rule, nothing below /public can depend on the private service implementation (i.e. things above /public). Enforcing this principle makes it much easier to keep the service's state well-isolated from the rest of the system.

Generally the language-specific client libraries are built against only the public mojom API of the service (and usually few other common dependencies like //base and //mojo), and they bootstrap connections to those interfaces by using public Service Manager APIs like Connector.

Even in the private service implementation, services should not depend on very large components like Content, Chrome, or Blink.

NOTE: Exceptions to the above rule are made in rare cases where Blink or V8 is actually required as part of the service implementation. For example "data_decoder" uses Blink implementation to decode common image formats, and "proxy_resolver" uses V8 to execute proxy autoconfig scripts.

Service Documentation

Every service should have a top-level README.md that explains the purpose and supported usage models of the service.

Every public interface should be documented within its Mojom file at both the interface level and indivudal message level.

Interface documentation should be complete enough to serve as test specifications. If the method returns information of a user's accounts, what should happen if the user is not signed in? If the method makes a request for an access token, what happens if a client makes a second method call before the first one has completed? If the method returns a nullable object, under which conditions will it be null?

Avoid writing interface documentation which is unnecessarily prescriptive about implementation details. Keep in mind that these are interface definitions, not implementations thereof.

Avoid writing documentation which is tailored to a specific client.

Service Testing

Try to cover service implementation details with unit tests tied as closely as possible to the private implementation object or method being tested, rather than exercising implementation details through public API surface.

For integration tests, try to have tests cover as much of the public API surface as possible while mocking out as little of the underlying service as possible.

Treat the public API tests as “conformance tests” which clearly demonstrate what expectations and guarantees are supposed to be upheld by any implementation of the service's APIs.

Take advantage of the test support library provided by the Service Manager. In particular, TestConnectorFactory is useful for driving public API tests with the service running inside the test process, and TestServiceManager makes it possible to easily cover out-of-process testing scenarios while faking out as little of the system as possible.

Adding a New Service

See the Service Manager documentation for more details regarding how to define a service and expose or consume interfaces to and from it, as well as how to make the service available to an application's runtime environment.